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README with description of major sysfs entries, sysfs documentation has been moved to ABI dir as suggested by Bart. Link: https://lore.kernel.org/r/20200511135131.27580-15-danil.kipnis@cloud.ionos.com Signed-off-by: Danil Kipnis <danil.kipnis@cloud.ionos.com> Signed-off-by: Jack Wang <jinpu.wang@cloud.ionos.com> Cc: linux-kernel@vger.kernel.org Signed-off-by: Jason Gunthorpe <jgg@mellanox.com>
214 lines
10 KiB
Plaintext
214 lines
10 KiB
Plaintext
****************************
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RDMA Transport (RTRS)
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****************************
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RTRS (RDMA Transport) is a reliable high speed transport library
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which provides support to establish optimal number of connections
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between client and server machines using RDMA (InfiniBand, RoCE, iWarp)
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transport. It is optimized to transfer (read/write) IO blocks.
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In its core interface it follows the BIO semantics of providing the
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possibility to either write data from an sg list to the remote side
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or to request ("read") data transfer from the remote side into a given
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sg list.
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RTRS provides I/O fail-over and load-balancing capabilities by using
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multipath I/O (see "add_path" and "mp_policy" configuration entries in
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Documentation/ABI/testing/sysfs-class-rtrs-client).
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RTRS is used by the RNBD (RDMA Network Block Device) modules.
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==================
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Transport protocol
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==================
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Overview
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--------
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An established connection between a client and a server is called rtrs
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session. A session is associated with a set of memory chunks reserved on the
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server side for a given client for rdma transfer. A session
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consists of multiple paths, each representing a separate physical link
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between client and server. Those are used for load balancing and failover.
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Each path consists of as many connections (QPs) as there are cpus on
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the client.
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When processing an incoming write or read request, rtrs client uses memory
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chunks reserved for him on the server side. Their number, size and addresses
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need to be exchanged between client and server during the connection
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establishment phase. Apart from the memory related information client needs to
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inform the server about the session name and identify each path and connection
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individually.
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On an established session client sends to server write or read messages.
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Server uses immediate field to tell the client which request is being
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acknowledged and for errno. Client uses immediate field to tell the server
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which of the memory chunks has been accessed and at which offset the message
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can be found.
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Module parameter always_invalidate is introduced for the security problem
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discussed in LPC RDMA MC 2019. When always_invalidate=Y, on the server side we
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invalidate each rdma buffer before we hand it over to RNBD server and
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then pass it to the block layer. A new rkey is generated and registered for the
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buffer after it returns back from the block layer and RNBD server.
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The new rkey is sent back to the client along with the IO result.
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The procedure is the default behaviour of the driver. This invalidation and
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registration on each IO causes performance drop of up to 20%. A user of the
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driver may choose to load the modules with this mechanism switched off
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(always_invalidate=N), if he understands and can take the risk of a malicious
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client being able to corrupt memory of a server it is connected to. This might
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be a reasonable option in a scenario where all the clients and all the servers
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are located within a secure datacenter.
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Connection establishment
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------------------------
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1. Client starts establishing connections belonging to a path of a session one
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by one via attaching RTRS_MSG_CON_REQ messages to the rdma_connect requests.
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Those include uuid of the session and uuid of the path to be
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established. They are used by the server to find a persisting session/path or
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to create a new one when necessary. The message also contains the protocol
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version and magic for compatibility, total number of connections per session
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(as many as cpus on the client), the id of the current connection and
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the reconnect counter, which is used to resolve the situations where
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client is trying to reconnect a path, while server is still destroying the old
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one.
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2. Server accepts the connection requests one by one and attaches
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RTRS_MSG_CONN_RSP messages to the rdma_accept. Apart from magic and
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protocol version, the messages include error code, queue depth supported by
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the server (number of memory chunks which are going to be allocated for that
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session) and the maximum size of one io, RTRS_MSG_NEW_RKEY_F flags is set
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when always_invalidate=Y.
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3. After all connections of a path are established client sends to server the
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RTRS_MSG_INFO_REQ message, containing the name of the session. This message
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requests the address information from the server.
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4. Server replies to the session info request message with RTRS_MSG_INFO_RSP,
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which contains the addresses and keys of the RDMA buffers allocated for that
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session.
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5. Session becomes connected after all paths to be established are connected
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(i.e. steps 1-4 finished for all paths requested for a session)
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6. Server and client exchange periodically heartbeat messages (empty rdma
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messages with an immediate field) which are used to detect a crash on remote
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side or network outage in an absence of IO.
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7. On any RDMA related error or in the case of a heartbeat timeout, the
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corresponding path is disconnected, all the inflight IO are failed over to a
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healthy path, if any, and the reconnect mechanism is triggered.
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CLT SRV
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*for each connection belonging to a path and for each path:
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RTRS_MSG_CON_REQ ------------------->
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<------------------- RTRS_MSG_CON_RSP
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...
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*after all connections are established:
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RTRS_MSG_INFO_REQ ------------------->
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<------------------- RTRS_MSG_INFO_RSP
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*heartbeat is started from both sides:
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-------------------> [RTRS_HB_MSG_IMM]
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[RTRS_HB_MSG_ACK] <-------------------
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[RTRS_HB_MSG_IMM] <-------------------
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-------------------> [RTRS_HB_MSG_ACK]
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IO path
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-------
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* Write (always_invalidate=N) *
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1. When processing a write request client selects one of the memory chunks
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on the server side and rdma writes there the user data, user header and the
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RTRS_MSG_RDMA_WRITE message. Apart from the type (write), the message only
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contains size of the user header. The client tells the server which chunk has
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been accessed and at what offset the RTRS_MSG_RDMA_WRITE can be found by
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using the IMM field.
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2. When confirming a write request server sends an "empty" rdma message with
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an immediate field. The 32 bit field is used to specify the outstanding
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inflight IO and for the error code.
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CLT SRV
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usr_data + usr_hdr + rtrs_msg_rdma_write -----------------> [RTRS_IO_REQ_IMM]
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[RTRS_IO_RSP_IMM] <----------------- (id + errno)
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* Write (always_invalidate=Y) *
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1. When processing a write request client selects one of the memory chunks
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on the server side and rdma writes there the user data, user header and the
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RTRS_MSG_RDMA_WRITE message. Apart from the type (write), the message only
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contains size of the user header. The client tells the server which chunk has
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been accessed and at what offset the RTRS_MSG_RDMA_WRITE can be found by
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using the IMM field, Server invalidate rkey associated to the memory chunks
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first, when it finishes, pass the IO to RNBD server module.
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2. When confirming a write request server sends an "empty" rdma message with
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an immediate field. The 32 bit field is used to specify the outstanding
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inflight IO and for the error code. The new rkey is sent back using
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SEND_WITH_IMM WR, client When it recived new rkey message, it validates
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the message and finished IO after update rkey for the rbuffer, then post
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back the recv buffer for later use.
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CLT SRV
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usr_data + usr_hdr + rtrs_msg_rdma_write -----------------> [RTRS_IO_REQ_IMM]
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[RTRS_MSG_RKEY_RSP] <----------------- (RTRS_MSG_RKEY_RSP)
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[RTRS_IO_RSP_IMM] <----------------- (id + errno)
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* Read (always_invalidate=N)*
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1. When processing a read request client selects one of the memory chunks
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on the server side and rdma writes there the user header and the
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RTRS_MSG_RDMA_READ message. This message contains the type (read), size of
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the user header, flags (specifying if memory invalidation is necessary) and the
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list of addresses along with keys for the data to be read into.
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2. When confirming a read request server transfers the requested data first,
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attaches an invalidation message if requested and finally an "empty" rdma
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message with an immediate field. The 32 bit field is used to specify the
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outstanding inflight IO and the error code.
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CLT SRV
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usr_hdr + rtrs_msg_rdma_read --------------> [RTRS_IO_REQ_IMM]
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[RTRS_IO_RSP_IMM] <-------------- usr_data + (id + errno)
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or in case client requested invalidation:
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[RTRS_IO_RSP_IMM_W_INV] <-------------- usr_data + (INV) + (id + errno)
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* Read (always_invalidate=Y)*
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1. When processing a read request client selects one of the memory chunks
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on the server side and rdma writes there the user header and the
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RTRS_MSG_RDMA_READ message. This message contains the type (read), size of
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the user header, flags (specifying if memory invalidation is necessary) and the
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list of addresses along with keys for the data to be read into.
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Server invalidate rkey associated to the memory chunks first, when it finishes,
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passes the IO to RNBD server module.
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2. When confirming a read request server transfers the requested data first,
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attaches an invalidation message if requested and finally an "empty" rdma
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message with an immediate field. The 32 bit field is used to specify the
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outstanding inflight IO and the error code. The new rkey is sent back using
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SEND_WITH_IMM WR, client When it recived new rkey message, it validates
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the message and finished IO after update rkey for the rbuffer, then post
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back the recv buffer for later use.
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CLT SRV
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usr_hdr + rtrs_msg_rdma_read --------------> [RTRS_IO_REQ_IMM]
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[RTRS_IO_RSP_IMM] <-------------- usr_data + (id + errno)
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[RTRS_MSG_RKEY_RSP] <----------------- (RTRS_MSG_RKEY_RSP)
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or in case client requested invalidation:
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[RTRS_IO_RSP_IMM_W_INV] <-------------- usr_data + (INV) + (id + errno)
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=========================================
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Contributors List(in alphabetical order)
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=========================================
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Danil Kipnis <danil.kipnis@profitbricks.com>
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Fabian Holler <mail@fholler.de>
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Guoqing Jiang <guoqing.jiang@cloud.ionos.com>
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Jack Wang <jinpu.wang@profitbricks.com>
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Kleber Souza <kleber.souza@profitbricks.com>
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Lutz Pogrell <lutz.pogrell@cloud.ionos.com>
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Milind Dumbare <Milind.dumbare@gmail.com>
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Roman Penyaev <roman.penyaev@profitbricks.com>
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